Self-Supported Paired Electrosynthesis Using a Microflow Reactor Without Intentionally Added Electrolyte

Abstract: We have developed a paired electrosynthetic system using a microflow reactor. This system enables paired electrochemical reactions composed of chloride reduction/alcohol oxidation combination to progress without intentionally added electrolyte. In addition, the use of parallel laminar flow in the microflow reactor resulted in a further improvement of the desired product yields in the paired electrosynthesis.

“…The same holds for the replacement of less green solvents by greener ones, while still retaining their support of a high selectivity. The concentration of the supporting electrolyte in organic ES is continuously decreased even to zero by using very small electrode gaps [4,120]. The amount of solvent may be decreased by using the substrate with small additives simultaneously as solvent [20], possibly also ionic liquids are useful for this purpose.…”

“…In a paired-electrolysis, benzyl chlorides were reduced to toluenes in up to 87% yield at the cathode and simultaneously 1-phenylethanols were oxidized to acetophenones in up to 61% yield in a 30 mmol scale. The reaction was performed in a microflow reactor in acetonitrile without a supporting electrolyte in a single pass of substrate using a parallel laminar flow [4].…”

Contributions of organic electrosynthesis to green chemistry

“…The same holds for the replacement of less green solvents by greener ones, while still retaining their support of a high selectivity. The concentration of the supporting electrolyte in organic ES is continuously decreased even to zero by using very small electrode gaps [4,120]. The amount of solvent may be decreased by using the substrate with small additives simultaneously as solvent [20], possibly also ionic liquids are useful for this purpose.…”

“…In a paired-electrolysis, benzyl chlorides were reduced to toluenes in up to 87% yield at the cathode and simultaneously 1-phenylethanols were oxidized to acetophenones in up to 61% yield in a 30 mmol scale. The reaction was performed in a microflow reactor in acetonitrile without a supporting electrolyte in a single pass of substrate using a parallel laminar flow [4].…”

Contributions of organic electrosynthesis to green chemistry

“…896 Fuchigami and Atobe has developed a parallel paired electrolysis system using a microflow reactor—reduction of benzyl halides was combined with the oxidation of secondary benzyl alcohols. 897 …”

Synthetic Organic Electrochemical Methods Since 2000: On the Verge of a Renaissance

“…Atobe and co-workers also developed a paired electrosynthetic system using a microflow reactor without intentionally added electrolyte [48]. This system enables paired electrochemical reactions of chloride reduction/alcohol oxidation progressing without added electrolyte.…”

Electrochemical microstructured reactors: design and application in organic synthesis